KR20000038601A - Fluorescent display tube - Google Patents

Abstract

PURPOSE: A fluorescent display tube is provided to maximize the display region by forming a cooling region in a space from a grid fixing portion to an anode pattern. CONSTITUTION: A fluorescent display tube comprises a front surface substrate(20), a rear surface substrate(22), a side glass(24), an anode(30), a grid(40), a filament(50), a plurality of lead wires(70), and a support body(60). The anode(30) is installed on the rear surface substrate(22). The grid(40) is installed above the anode(30). The filament(50) is installed above the grid(40). The lead wires(70) are installed on the rear surface substrate(22), The lead wires(70) applies an electric power to the anode(30) and the grid(40).

Description

Fluorescent tube

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent display tube, and more particularly, to a fluorescent display tube in which a support is installed in a direction perpendicular to the lead wire to increase the size of the display area and reduce the driving voltage of the filament.

In general, a fluorescent display tube (VFD) is a self-luminous display device that emits electrons by colliding electrons on an anode, and is capable of multicolor display, can be driven at low voltage, and is easily applied to semiconductor components, and has high reliability. There are many uses in you.

6 to 8, a vacuum container is formed of the front substrate 2 and the rear substrate 4, and the filament 6 and the hot electron, which are cathodes, emit hot electrons in the vacuum container. A grid 7 for accelerating or blocking diffusion and an anode 8 formed in a pattern for display are provided.

The anode 8 is formed by applying a phosphor on a conductor such as graphite formed in a pattern for display.

The portion where the phosphor is coated and the pattern is formed is referred to as the display area D as an area capable of realizing an image.

The grid 7 is formed of a metal mesh etched from a thin plate such as stainless steel, and is bent at a predetermined distance from the anode 8 by bending both ends in a stepped shape to fix it to the back substrate 4. Install.

The fluorescent display tube is provided with a plurality of lead wires 9 for applying power (voltage and current) to the grid 7 and the anode 8, respectively.

Therefore, the pattern of the anode 8 which is the display area is inward from the edge end of the rear substrate 4 by the grid fixing portion where the grid 7 is fixed to the rear substrate 4 and the fixing portion of the lead wire 9. Form at intervals.

The fluorescent display tube constructed as described above emits light by hot electrons emitted from the filament 6 being accelerated and diffused by the grid 7 to impinge on the phosphor coated on the anode 8 to excite the phosphor. A predetermined character or image is implemented.

In the conventional fluorescent display tube, the filament 6 is installed in the direction perpendicular to the lead wire 9 on the support 10 provided in the direction parallel to the lead wire 9.

In the conventional fluorescent display tube configured as described above, since the filament 6 is installed on the support 10 by welding or the like, heat loss of the filament 6 occurs due to heat conduction by the welding point, and thus the welding point The constant distance at does not reach a sufficient temperature for emitting hot electrons in the filament 6 and thus does not form a screen, which is called the cooling zone (C).

In the conventional fluorescent display tube as described above, since the support body 10 is provided on both sides of the rear substrate 4 in a direction parallel to the lead wire 9, a predetermined area from the support body 10 is moved to the cooling zone C. The size of the display area D is defined.

In addition, since the grid 7 is fixed to both edges of the back substrate 4 on which the support 10 is not installed, and the lead wire 9 is fixed to one edge thereof, the part where the lead wire 9 and the grid 7 are fixed is an anode. The pattern of (8) cannot be formed and the size of the display area D is limited by that amount.

Therefore, the conventional fluorescent display tube is smaller than the display device (for example, liquid crystal display device) having a different size of the display area D than the size of the front substrate 2 and the back substrate 4.

In addition, since the length of the filament 6 is long when a conventional fluorescent display tube having the above-mentioned structure is manufactured in a large size, a voltage drop of a voltage applied to the filament 6 occurs, and a luminance difference between left and right occurs. DC drive becomes difficult.

Therefore, in a large fluorescent display tube, the filament 6 must be driven using an alternating current voltage or the driving voltage of a direct current must be increased. Therefore, the circuit configuration becomes complicated, a cost increase, and a constraint on the length of the fluorescent display tube. .

An object of the present invention is to solve the above problems, by installing the support in a direction perpendicular to the lead wire and the filament on the support in a direction parallel to the lead wire so that the cooling zone is fixed to the grid fixing and the distance from the grid to the pattern The present invention provides a fluorescent display tube with an enlarged display area.

It is also an object of the present invention to provide a fluorescent display tube which can be driven by a direct current voltage even when manufactured in a large size, and can reduce the driving voltage of the filament.

The fluorescent display tube of the present invention is provided at a corner so that the front substrate is formed to be transparent, the back substrate is provided at a predetermined interval from the front substrate, and the gap between the front substrate and the back substrate is kept constant. Side glass, an anode installed in a predetermined pattern on the rear substrate, and a phosphor coated thereon; a grid provided at a predetermined interval above the anode; and a predetermined interval above the grid. And a plurality of lead wires installed on the rear substrate, the plurality of lead wires for applying power to the anode and the grid from the outside, and installed at both side edges of the rear substrate in a direction perpendicular to the lead wires. And a supporting support.

The filament is fixed to and supported in the direction parallel to the lead wire.

The anode formed in a predetermined pattern on the rear substrate is installed to a position close to the side glass of the corner perpendicular to the corner where the lead wire is installed.

In addition, the support is installed above the grid fixing to which the grid is fixed to the rear substrate.

In the fluorescent display tube of the present invention configured as described above, since the cooling zone is formed at a distance from the grid fixing part and the grid fixing part to the pattern of the anode, and the support part is installed at the corner opposite to the corner where the lead wire is installed, the support is not installed. At both corners, the display area may be extended to a portion adjacent to the side glass.

1 is an exploded perspective view showing an embodiment of a fluorescent display tube according to the present invention.

2 is a plan view showing an embodiment of a fluorescent display tube according to the present invention;

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a plan view showing another embodiment of a fluorescent display tube according to the present invention;

5 is a cross-sectional view taken along line B-B in FIG.

6 is an exploded perspective view showing a conventional fluorescent display tube.

7 is a plan view showing a conventional fluorescent display tube.

8 is a cross-sectional view taken along the line F-F in FIG.

Next, the most preferable embodiment of the fluorescent display tube which concerns on this invention is described in detail with reference to drawings.

First, as shown in FIGS. 1 to 3, one embodiment of the fluorescent display tube according to the present invention includes a front substrate 20 which is formed transparently, and a rear surface provided at a predetermined interval from the front substrate 20. In order to maintain a constant distance between the substrate 22, the front substrate 20 and the rear substrate 22, the side glass 24 is installed at the corners, and the rear substrate 22 in a predetermined pattern. An anode 30 installed and coated with a phosphor, a grid 40 installed at a predetermined interval above the anode 30, and a grid disposed at a predetermined interval above the grid 40. A plurality of lead wires 70 provided on the filament 50, the back substrate 22, for applying power to the anode 30 and the grid 40 from the outside, and the lead wires 70 and It is installed at both side edges of the back substrate 22 in the vertical direction and supports the filament 50. Comprises a support (60).

The vacuum container is formed by sealing the front substrate 20 and the rear substrate 22 with the side glass 24 provided on the corners therebetween.

The filament 50 is fixed to the support 60 in a direction parallel to the lead wire 70 is supported.

The anode 30 formed in a predetermined pattern on the rear substrate 22 is installed up to a position close to the side glass 24 of the corner perpendicular to the corner where the lead wire 70 is installed.

In addition, the support 60 is installed above the grid fixing part 44 in which the grid 40 is fixed to the rear substrate 22.

In the above, it is preferable that the support 60 and the grid 40 are insulated so as not to short-circuit each other.

The support 60 is composed of a bottom plate 62 and a plurality of support members 64 installed on the bottom plate 62 and welded parts to which the filaments 50 are welded one by one to a predetermined height.

The support member 64 is formed of a thin plate, and cuts a portion in a predetermined pattern corresponding to the number of the filaments 50 to be installed, and then bends it to a predetermined shape and height to form a weld.

In one embodiment of the fluorescent display tube according to the present invention configured as described above, the cooling zone (C) is formed at a distance from the grid fixing part 44 and the grid fixing part 44 to the pattern of the anode 30, Since the support body 60 is installed at an edge opposite to the edge where the lead wire 70 is installed, both edges where the support body 60 is not installed can extend the display area D to a portion adjacent to the side glass 24. In this case, the unused area E at both edges parallel to the lead wire 70 can be minimized.

In other words, since the grid fixing part 44 is formed in the conventional fluorescent display tube, the cooling area C is formed in the area where the pattern of the anode 30 is not formed. The horizontal size of the display area D can be maximized while keeping the size substantially the same.

In another embodiment of the fluorescent display tube according to the present invention, as shown in FIGS. 4 to 5, a support 60 for supporting the filament 50 is provided at a predetermined interval above the lead wire 70. .

That is, both ends of the support 60 are bent in a staircase shape and fixed to the rear substrate 22, and the portions where the lead wires 70 are positioned are formed at predetermined intervals above the lead wires 70.

According to another embodiment of the fluorescent display tube according to the present invention as described above, it is possible to increase the vertical size of the display area (D) to further increase the size of the display area (D).

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the range of.

According to the fluorescent display tube according to the present invention made as described above, since the cooling zone is formed in the space from the grid fixing part to the anode pattern, it is possible to form the display area (formation of the anode pattern) at the maximum size. Compared with the size of the substrate, the size of the display area is greatly increased.

In the case of manufacturing a fluorescent display tube in a large size, there is no restriction on the length because the filament is installed in the width direction.

In other words, even in a long fluorescent display tube, the length of the filament does not become long, so that the luminance difference between left and right due to the voltage drop in the filament does not occur.

Also, even in a large fluorescent display tube, it is possible to shorten the length of the filament, so that the driving voltage is reduced, the DC driving is possible, and the configuration of the driving circuit is simple, thereby reducing the cost.

Claims (5)

The front substrate is formed transparently, the back substrate is provided at a predetermined interval with the front substrate, the side glass is installed at the corners to maintain a constant distance between the front substrate and the back substrate, and the back An anode provided in a predetermined pattern on a substrate and coated with a phosphor, a grid provided at a predetermined interval above the anode, a filament provided at a predetermined interval above the grid, and the back surface A fluorescence comprising a plurality of lead wires mounted on a substrate and for supporting power from the outside to the anode and the grid, and a support for supporting the filament at both side edges of the rear substrate in a direction perpendicular to the lead wires; Indicator tube. The method of claim 1, wherein the filament is fixed to the support in a direction parallel to the lead wires, the anode formed in a predetermined pattern on the back substrate is perpendicular to the corner where the lead wires are installed Fluorescent display tube to be installed near the side glass of the corner. The fluorescent display tube of claim 1, wherein the support is provided above a grid fixing part in which the grid is fixed to a rear substrate. The fluorescent display tube of claim 1, wherein the support is provided at a predetermined interval above the lead wire. The fluorescent display tube according to claim 4, wherein the support body is bent at both ends and fixed to the rear substrate, and portions where the lead wires are positioned are positioned at predetermined intervals above the lead wires.